JP5959429B2 - Air conditioner indoor unit - Google Patents

Description

  The present invention relates to an indoor unit of an air conditioner, and more particularly to a motor mounting / removal structure.

In a large-capacity air conditioner, the power consumption of the fan motor is larger than that of a general home air conditioner. Therefore, reducing the power consumption of the fan motor also saves energy and increases the efficiency of the air conditioner.
A centrifugal fan is generally provided in a blower provided in such a large-capacity air conditioner, and among them, a turbofan with good blowing efficiency is preferred. For example, the blowing efficiency of the sirocco fan is about 45 to 60%, while the blowing efficiency of the turbo fan is about 65 to 80%.

  If the casing of the sirocco fan has a scroll shape, the blowing efficiency can be increased. For this reason, generally the scroll shape is employ | adopted as a casing of a sirocco fan. However, in the case of a turbofan, since the casing shape has little influence on the air blowing efficiency, a box-shaped casing is often adopted rather than a scroll-shaped casing for the convenience of manufacturing.

For example, a conventional air conditioner equipped with a turbofan has been proposed which has a box-shaped casing and the casing motor is vertically arranged so as to blow air upward (for example, Patent Documents). 1 and 2). In the techniques described in Patent Documents 1 and 2, a turbo fan is connected to the motor shaft, and an inlet ring is disposed on the upper surface of the casing.
In the technique described in Patent Document 2, a suspension bolt used to support the motor is connected to the side surface of the motor.

JP 2010-236735 A (see, for example, FIG. 1) JP 2010-151399 A (see, for example, FIGS. 3 and 4)

In a large-capacity air conditioner, the motor is heavy, for example, about 50 kg. Here, the width of the motor in the direction perpendicular to the motor shaft is shorter than the width in the direction of the motor shaft. For this reason, when a motor is carried into an outdoor unit or an indoor unit, it is more stable to place the motor horizontally such that the surface parallel to the direction of the motor shaft is on the lower side.
That is, when a motor is installed in an outdoor unit or indoor unit in a vertically placed state, for example, a heavy motor of about 50 kg is placed in a vertically placed state from a horizontally placed state.

  In motors installed in an outdoor unit or in an indoor unit in a horizontal state, and vertical motors with a flange on the shaft side of the motor, the position where the suspension bolt is connected is on the side surface of the motor. However, these are not burdened by the worker because they are not placed vertically.

However, as described in Patent Documents 1 and 2, in an air conditioner in which a motor is installed in an outdoor unit or an indoor unit in a vertically installed state, the motor has a larger capacity as the capacity of the air conditioner increases. When a motor is carried into an outdoor unit or an indoor unit, or taken out from the outdoor unit or the indoor unit, a predetermined jig is required in addition to a hand lift.
In other words, the techniques described in Patent Documents 1 and 2 have a problem in that the burden on the operator increases due to the necessity of a predetermined jig in addition to the hand lift.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an indoor unit of an air conditioner that suppresses an increase in the burden on an operator.

  An indoor unit of an air conditioner according to the present invention supports a motor in the indoor unit of the air conditioner in which the motor is vertically arranged so that the rotation axis of the motor that rotates the fan is parallel to the vertical direction. The motor base and a motor base support base frame that rotatably supports the motor base so that the rotation axis of the motor is inclined at a predetermined angle with respect to the vertical direction.

  According to the indoor unit of the air conditioner according to the present invention, a member (for example, a suspension) used when the motor is held by rotating the motor while being supported by the motor base with the motor base support frame. The position of bolts, etc.) can be changed. Thereby, it can suppress that the burden of the operator at the time of attaching or removing a motor to a motor base increases.

It is a longitudinal cross-sectional view of the indoor unit of the air conditioning apparatus which concerns on Embodiment 1 of this invention. It is a disassembled perspective view of the casing of the air blower shown in FIG. It is explanatory drawing of the structural example of the air blower shown in FIG. It is a disassembled perspective view of the motor stand support stand frame and motor stand shown in FIG. It is a perspective view at the time of attaching and detaching the motor of the air blower shown in FIG. FIG. 6 is a perspective view of the blower shown in FIG. 5 with a turbo fan removed. FIG. 6 is a perspective view of the blower shown in FIG. 5 with a turbo fan and a motor removed. It is a perspective view of the support base frame fixing member of the air conditioning apparatus which concerns on Embodiment 2 of this invention, and its vicinity. It is a longitudinal cross-sectional view of the indoor unit of the air conditioning apparatus which concerns on Embodiment 3 of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
Embodiment 1 FIG.
FIG. 1 is a longitudinal sectional view of an indoor unit 100 of an air conditioner according to Embodiment 1. In addition, Fig.1 (a) is a longitudinal cross-sectional view when attaching the air blower A to the indoor unit 100 and driving | running an air conditioning apparatus. Moreover, FIG.1 (b) is a longitudinal cross-sectional view in the time of attaching the air blower A to the indoor unit 100, and when removing. FIG. 2 is an exploded perspective view of the casing 15 of the blower A shown in FIG. FIG. 3 is an explanatory diagram of a structural example of the blower A shown in FIG.
The air conditioning apparatus according to the present embodiment is obtained by improving the method for attaching and removing the blower A, and can suppress an increase in the burden on the operator.
In addition, in the following description, although the case where the air blower A is attached to the indoor unit 100 will be described as an example, the present invention can also be applied to an outdoor unit.

The air conditioner has a function of supplying cooled or heated air to an air-conditioning target space (for example, a house, a building, a warehouse, etc.), for example. In the air conditioner, an indoor unit 100 on the use side and an outdoor unit (not shown) on the heat source side are connected by a refrigerant pipe or the like.
The indoor unit 100 is discharged after the main body 100A on which various devices such as the blower A are mounted, the heat exchanger 21 that exchanges heat between the taken-out outdoor air and the indoor air, and the air is taken into the main body 100A. At least a blower A.

[Main Body 100A]
The main body 100A is provided with a suction port 100B used for taking air into the main body 100A and a blower outlet 100C that discharges the air heat-exchanged with the refrigerant in the heat exchanger 21 to the outside of the main body 100A. The suction port 100B is provided, for example, at the upper part of the main body 100A, and the blower outlet 100C is provided, for example, at the lower part of the main body 100A.

The main body 100A is, for example, a bottom blowing type that blows conditioned air to a free access floor (under the floor) of a computer room.
That is, the main body 100A is not a floor surface of the air conditioning target space, but is installed on a floor surface that is, for example, in a lattice shape and is lifted by a predetermined height from the floor surface of the air conditioning target space. For this reason, even if there is an outlet 100C in the lower part of the main body 100A, air flows out from the gap between the lattice-like floor surface to the free access floor below the lattice-like floor surface. The air inside is not blocked.
In addition, the formation position of the inlet 100B and the outlet 100C of the main body 100A is not limited to this. For example, it is good also as the indoor unit 100 of the aspect by which the blower outlet 100C is formed in the side surface side of 100 A of main bodies according to the use of an air conditioning apparatus.

[Heat exchanger 21]
The heat exchanger 21 exchanges heat between the air introduced into the main body 100 </ b> A and the refrigerant supplied to the heat exchanger 21. The heat exchanger 21 is disposed on the upper side of the blower A, and is provided on the downstream side of the blower A with respect to the air flow direction. In addition, in FIG. 1, although the case where the heat exchanger 21 is inclined is demonstrated to the example, it is not limited to it, You do not need to incline.

[Blower A]
The blower A discharges air after taking it into the main body 100A, is disposed below the heat exchanger 21, and is provided upstream of the heat exchanger 21 with respect to the air flow direction. It is what.
The blower A has a casing 15 constituting an outer shell, a plurality of blades, a rotating turbo fan 1, a motor 2 that rotates the turbo fan 1, and a rotating shaft 11 that connects the turbo fan 1 and the motor 2 ( 6), a motor base 3 that supports the motor 2, a motor base support frame 6 that supports the motor base 3, and a frame 5 that supports the motor base support frame 6. .

(Casing 15)
The casing 15 accommodates the turbo fan 1, the motor 2, the rotating shaft 11, the motor base 3, the motor base support frame 6, the frame 5, and the like. The casing 15 includes a frame 16 having a substantially lattice shape, five panels 17 provided so as to surround other than the lower portion of the frame 16, and an inlet ring 18 serving as an intake port for taking air into the casing 15. It is what you are doing.

(Frame 16)
The panel 17 is attached to the frame 16 after the operator finishes the attachment work of the motor 2. In addition, when the motor 2 is attached or detached, the turbo fan 1 or the motor 2 in the casing 15 can be exposed by removing the panel 17 facing the front side of the main body 100A from the frame 16. Thereby, the worker can move the turbo fan 1 and the motor 2 in the casing 15 to the inside and outside of the casing 15.
In addition, although the panel 17 is attached to the upper part and the side part of the frame 16, it is not attached to the lower part of the frame 16. That is, the air taken into the casing 15 from the inlet ring 18 side is discharged from the lower side of the casing 15 to the outside of the casing 15.

(Panel 17 and inlet ring 18)
The panel 17 provided in the upper part of the frame 16 in the panel 17 has a substantially plate-like shape in plan view in which a substantially circular opening 17A is formed. An inlet ring 18 is attached to a position where the opening 17A is formed. And four things provided in the side part of the frame 16 among the panels 17 are members whose planar view shape is substantially plate shape. The panel 17 is fixed to the frame 16 by, for example, screwing.
The inlet ring 18 has a function as a bell mouth in which a curved surface is formed on the inner surface so as to suppress disturbance of the flow of air sucked into the casing 15. The inlet ring 18 is attached to the panel 17 after the turbo fan 1, the rotary shaft 11, and the motor 2 are installed in a casing and placed in a vertical state. This is because if the inlet ring 18 is attached first, the turbo fan 1 and the inlet ring 18 interfere with each other when changing from the horizontally placed state to the vertically placed state.

(Turbo fan 1, motor 2, rotating shaft 11)
The turbofan 1 has a plurality of blades and is rotated by a motor 2. In FIG. 3, an upper portion of the paper surface of the turbo fan 1 is an air suction surface 1 </ b> A. The turbo fan 1 is provided at a position facing the panel 17 provided on the upper part of the casing 15 among the five panels 17 of the casing 15 in a state where the air conditioner is in operation.
In addition, although this Embodiment 1 demonstrates as what the turbofan 1 is provided in the air blower A, it is not limited to it, For example, if a centrifugal fan like a sirocco fan etc. is employ | adopted, it is. Good.
The motor 2 includes a stator around which a coil through which a current flows is wound, a permanent magnet, and the like, and includes a rotor connected to the rotary shaft 11 and the like. A rotation shaft 11 is connected to the motor 2.
The rotating shaft 11 is connected to the rotor of the motor 2 at one end side and to the turbo fan 1 at the other end side.
In the indoor unit 100 of the air conditioning apparatus according to the present embodiment, the attitude of the turbo fan 1, the motor 2, and the rotating shaft 11 can be switched by the operator switching the attitude of the motor base 3. ing.

(Motor base 3, motor base support frame 6, frame 5)
The motor base 3 supports the motor 2 and has, for example, a substantially flat plate shape. The motor base 3 is provided so as to face a part of the outer periphery of the motor 2.
The motor base support frame 6 supports the motor base 3, and supports the first motor base support frame 6 A that supports one end side of the motor base 3 and the other end side of the motor base 3. The second motor base support base frame 6B is provided.
The frame 5 supports the motor base support frame 6, and includes a first frame 5A that supports the first motor base support frame 6A and a second frame 5B that supports the second motor base support frame 6B. The first frame 5A is connected to both end portions of the first frame 5A and both end portions of the second frame 5B, and has a third frame 5C having a substantially square shape in top view.
The motor base 3, the motor base support base frame 6, and the frame 5 will be described in detail with reference to FIGS.

The blower A is installed in the main body 100A in a vertically placed state. That is, when operating the air conditioner, the blower A is installed in the main body 100A in a state where the rotary shaft 11 is substantially parallel to the vertical direction and the air suction surface 1A of the turbofan 1 faces upward. (Refer to FIG. 3). This state is also referred to as a first state in the following description.
That is, in the first state, the turbo fan 1, the motor 2, and the rotary shaft 11 are provided in the casing 15 so that the rotary shaft 11 is substantially parallel to the vertical direction.
Further, when performing maintenance such as when the blower A is attached to or removed from the indoor unit 100, the rotary shaft 11 is inclined from the substantially vertical state, and the turbo fan 1 sucks air. The posture is changed so that the surface 1A faces the side surface of the main body 100A (see FIG. 5). This state is also referred to as a second state in the following description.
That is, in the second state, the turbo fan 1, the motor 2, and the rotating shaft 11 are provided in the casing 15 so that the rotating shaft 11 is inclined at a preset angle from the substantially vertical state. . In this second state, the suspension bolt 4 comes to the upper side.

[Details of motor base 3, motor base support frame 6, and frame 5]
4 is an exploded perspective view of the motor base support frame 6 and the motor base 3 shown in FIG. FIG. 5 is a perspective view when the motor 2 of the blower A shown in FIG. 1 is attached and detached. FIG. 6 is a perspective view of the blower A shown in FIG. 5 with the turbo fan 1 removed. FIG. 7 is a perspective view of the blower A shown in FIG. 5 with the turbo fan 1 and the motor 2 removed. Detailed configurations of the motor base 3, the motor base support frame 6, and the frame 5 will be described with reference to FIGS.

(Motor stand 3)
The motor base 3 is a substantially square member, for example. The motor base 3 includes a first anti-rotation member 3A and a second anti-rotation member 3B used to support the motor 2 so as to be in the first state, and the motor base 3 is connected to the motor base support frame 6 A rotating shaft 3C that is rotatably fixed with respect to the first plunger 12A and a second plunger 12B that are used to support the motor 2 so as to be in the first state and the second state. It is what.
As shown in FIGS. 6 and 7, for example, the motor 2 is fixed to the motor base 3 by four bolts 10. Further, as shown in FIG. 7, the motor base 3 is formed with positioning pins 14 on the surface where the motor 2 is installed. Thereby, when the motor 2 is attached to the motor base 3, the motor 2 is positioned without slipping down even on the motor base 3 inclined by the positioning pins 14 formed on the motor base 3. That is, the burden on the operator when the motor 2 is fixed to the motor base 3 with the bolt 10 can be suppressed.

The first anti-rotation member 3 </ b> A is a flat plate-like member that protrudes from the end of the motor base 3 on the first motor base support base frame 6 </ b> A side. A first bolt hole 3AA is formed in the first rotation preventing member 3A. In the first state, the first bolt hole 3AA comes into contact with the first bolt hole 9A of the first motor base support frame 6A, which will be described later. In the first state, a bolt (not shown) is fastened to the first bolt hole 3AA and the first bolt hole 9A, and the motor base 3 is fixed to the first motor base support frame 6A. Thereby, the turbo fan 1, the motor 2, and the rotating shaft 11 can maintain the attitude | position in a 1st state.
The second rotation preventing member 3B has the same configuration as the first rotation preventing member 3A. The second rotation preventing member 3 </ b> B is a flat plate-like member that protrudes from the end of the motor base 3 on the second motor base support base frame 6 </ b> B side. A second bolt hole 3BB is formed in the second rotation preventing member 3B. In the first state, the second bolt hole 3BB comes into contact with the second bolt hole 9B of the second motor base support frame 6B, which will be described later. In the first state, bolts (not shown) are fastened to the second bolt holes 3BB and the second bolt holes 9B, and the motor base 3 is fixed to the second motor base support frame 6B. Thereby, the turbo fan 1, the motor 2, and the rotating shaft 11 can maintain the attitude | position in a 1st state.

The rotating shaft 3 </ b> C is provided on the end side on the first motor base support frame 6 </ b> A side of the motor base 3 and on the end side on the second motor base support frame 6 </ b> B side. The rotating shaft 3C is substantially parallel to the horizontal direction.
One end side of the rotation shaft 3C is connected to a first rotation shaft support hole 8A of a first motor base support frame 6A described later, and the other end side of the rotation shaft 3C is a second motor base described later. It is connected to the second rotating shaft support hole 8B of the support frame 6B. Thereby, the motor base 3 becomes rotatable with respect to the motor base support frame 6.

The first plunger 12A is used to support the motor 2 so as to be in the first state and the second state, and is the end of the motor base 3 on the first motor base support frame 6A side. It is formed to project to the part side. Here, as shown in FIG. 4, when the rotation shaft 3C is used as a reference, the side opposite to the side where the first anti-rotation member 3A is formed (the upper side in FIG. 4) (the lower side in FIG. 4). The first plunger 12A is formed.
The first plunger 12A is fitted into a first plunger hole 13A1 of a first motor base support frame 6A described later in the first state, and is supported in a first motor base described later in the second state. It is fitted in the first plunger hole 13A2 of the frame 6A. The first plunger 12A may be a spring type, for example.

The second plunger 12B has the same configuration as the first plunger 12A. The second plunger 12B is used to support the motor 2 so as to be in the first state and the second state. The end of the motor base 3 on the second motor base support frame 6B side. It is formed to project to the part side. Here, as shown in FIG. 4, when the rotation shaft 3C is used as a reference, the side opposite to the side where the second anti-rotation member 3B is formed (the upper side of the paper in FIG. 4) (the lower side of the paper in FIG. 4). The second plunger 12B is formed.
The second plunger 12B is fitted in the second plunger hole 13B1 of the second motor base support frame 6B described later in the first state, and the second motor base support described later in the second state. It is fitted in the second plunger hole 13B2 of the frame 6B. The second plunger 12B may be a spring type, for example. That is, it is preferable that the first plunger 12A and the second plunger 12B are urged by a spring so as to maintain the protruding state, and retracted inward when a force stronger than the urging force is applied.

(Motor support frame 6)
The motor base support frame 6 is a substantially pentagonal member, for example, in a side view, and has a first motor base support frame 6A and a second motor base support frame 6B.
The first motor base support frame 6A is used to support the motor base 3 so as to be in the first state with the first rotary shaft support hole 8A to which the rotary shaft 3C of the motor base 3 is connected. The first plunger hole 13A1, the first plunger hole 13A2 used to support the motor base 3 so as to be in the second state, and a bolt (not shown) are fastened so as to be in the first state. The first bolt hole 9A is formed.
The second motor base support frame 6B is used to support the motor base 3 so as to be in the first state with the second rotary shaft support hole 8B to which the rotary shaft 3C of the motor base 3 is connected. Two plunger holes 13B1, a second plunger hole 13B2 used to support the motor base 3 so as to be in the second state, and a bolt (not shown) are fastened so as to be in the first state. The second bolt hole 9B is formed.

The first rotation shaft support hole 8A and the second rotation shaft support hole 8B are connected to the rotation shaft 3C.
The first rotary shaft support hole 8A has a height position at the center of the hole below the center of the first bolt hole 9A and above the centers of the first plunger hole 13A1 and the first plunger hole 13A2. It has become. In the first rotation shaft support hole 8A, the horizontal position of the center of the hole is substantially the same position as the center of the first plunger hole 13A1, and is on the left side of the page with respect to the center of the first plunger hole 13A2. . The first rotating shaft support hole 8A is formed in the same plane together with the first plunger hole 13A1 and the first plunger hole 13A2.
The second rotation shaft support hole 8B has the same configuration as the first rotation shaft support hole 8A. In the second rotation shaft support hole 8B, the height position of the center of the hole is below the center of the second bolt hole 9B and above the centers of the second plunger hole 13B1 and the second plunger hole 13B2. It has become. In the second rotation shaft support hole 8B, the horizontal position of the center of the hole is substantially the same position as the center of the second plunger hole 13B1, and is on the left side of the page with respect to the center of the second plunger hole 13B2. . The second rotating shaft support hole 8B is formed in the same plane together with the second plunger hole 13B1 and the second plunger hole 13B2.

The first plunger hole 13A1 and the first plunger hole 13A2 are for fitting the first plunger 12A. The second plunger hole 13B1 and the second plunger hole 13B2 are for fitting the second plunger 12B.
The first plunger hole 13A1 is formed below the first rotation shaft support hole 8A, and the first plunger 12A is fitted when the motor base 3 is in the first state. The center of the first plunger hole 13A2 is formed below the center of the hole of the first rotation shaft support hole 8A, and the center of the hole of the first rotation shaft support hole 8A is shown in FIG. The first plunger 12A is fitted when the motor base 3 is in the second state.
The second plunger hole 13B1 is formed below the second rotation shaft support hole 8B, and the second plunger 12B is fitted when the motor base 3 is in the first state. The center of the second plunger hole 13B2 is formed below the center of the hole of the second rotating shaft support hole 8B, and the center of the hole of the second rotating shaft support hole 8B is shown in FIG. The second plunger 12B is fitted when the motor base 3 is in the second state.

The first bolt hole 9A is orthogonal to the surface of the first motor base support frame 6A where the first rotating shaft support hole 8A, the first plunger hole 13A1, and the first plunger hole 13A2 are formed. It is formed on the connected surfaces. More specifically, the first bolt hole 9A is formed on the surface of the first motor base support frame 6A that is substantially parallel to the vertical direction and has a higher height direction. The formation position of the first bolt hole 9A is above the first rotation shaft support hole 8A.
The second bolt hole 9B is orthogonal to the surface of the second motor base support frame 6B where the second rotating shaft support hole 8B, the second plunger hole 13B1, and the second plunger hole 13B2 are formed. It is formed on the connected surfaces. More specifically, the second bolt hole 9B is formed on the surface of the second motor base support frame 6B that is substantially parallel to the vertical direction and has a higher height direction. The formation position of the second bolt hole 9B is above the first rotation shaft support hole 8A.

(Frame 5)
The frame 5 supports the motor base support base frame 6, and includes a first frame 5A, a second frame, and a third frame 5C (see FIG. 3). The frame 5 supports the weight of the turbo fan 1, the rotating shaft 11, and the motor 2 via the motor base 3 and the motor base support base frame 6. The frame 5 is fixed to the main body 100A of the indoor unit 100, for example.
The first frame 5A is a member that is provided substantially parallel to the second frame 5B and has a substantially U-shaped longitudinal section. The first frame 5A is in contact with the bottom surface of the first motor base support frame 6A and supports the first motor base support frame 6A. The first frame 5A and the first motor base support base frame 6A are fixed by, for example, welding.
The second frame 5B is a member that is provided substantially parallel to the first frame 5A and has a substantially U-shaped longitudinal section. The second frame 5B is in contact with the bottom surface of the second motor base support frame 6B and supports the second motor base support frame 6B. The second frame 5B and the second motor base support base frame 6B are fixed by, for example, welding.
The third frame 5C has a substantially square shape in plan view, and is connected to one end side of the first frame 5A and the second frame 5B, and is connected to the first frame 5A and the second frame 5B. The other end side is connected. The third frame 5C is fixed to the first frame 5A and the second frame 5B by welding, for example.

[Description of operation (when removed)]
First, a description will be given of removing the motor 2 and the like from the main body 100A.
In the first state (see FIG. 3), the bolts connected to the first bolt holes 3AA and the first bolt holes 9A of the motor base 3, and the bolts connected to the second bolt holes 3BB and the second bolt holes 9B. The turbo fan 1, the rotating shaft 11, and the motor 2 can be rotated with the rotating shaft 3C as a fulcrum.
As shown in FIG. 5, when the turbo fan 1, the rotating shaft 11, the motor 2 and the motor base 3 are tilted, the first plunger 12A is fitted into the first plunger hole 13A2, and the second plunger 12B is second. The plunger hole 13B2 is fitted, and the configuration of the turbo fan 1, the rotating shaft 11, the motor 2, and the motor base 3 can be held in an inclined state.
That is, from the first state in which the motor 2 is arranged vertically so that the rotation shaft 11 of the motor 2 is in the vertical direction, the motor 2 is tilted by a predetermined angle with respect to the vertical direction. It is possible to shift to the arranged second state.
As described above, when the state is shifted from the first state to the second state, the suction surface 1A of the turbo fan 1 can be directed to the front surface of the main body 100A, and the bushing of the turbo fan 1 or the set screw can be easily removed. be able to. That is, the operator can easily remove the turbo fan 1.

  As shown in FIG. 6, the suspension bolt 4 of the motor 2 faces upward after removing the turbofan 1 from the rotating shaft 11. After removing the bolt 10, the motor 2 can be removed by a hand lift or the like.

  Here, in the second state, the motor base 3 is held at a predetermined angle so that the turbofan 1 and the frame 5 do not contact each other. That is, in the motor base support frame 6, the turbo fan 1 and the frame 5 are not in contact with each other when the first plunger 12A and the second plunger 12B are fitted in the first plunger hole 13A2 and the second plunger hole 13B2. Thus, the formation position of the first plunger hole 13A2 and the second plunger hole 13B2 and the formation position of the rotation shaft support hole 8 to which the rotation shaft 11 of the motor base 3 is connected are set. .

[Description of operation (when installed)]
Next, a description will be given of attaching the motor 2 and the like from the main body 100A.
Using the positioning pins 14 formed on the motor base 3, the motor 2 having the rotating shaft 11 is installed on the motor base 3 which is inclined in the second state. The positioning pin 14 allows the motor 2 to be positioned without slipping, and the motor 2 and the motor base 3 can be easily fixed with the bolts 10. And after fixing the motor 2 and the motor base 3 with the volt | bolt 10, the turbo fan 1 is attached to the rotating shaft 11. FIG.

After the turbo fan 1 is attached to the rotating shaft 11, the first plunger 12A and the second plunger 12B are pushed in. As a result, the motor base 3 held at a predetermined angle rotates to the back side of the main body 100A due to its own weight, and the first rotation prevention member 3A and the second rotation prevention member 3B of the motor base 3, The motor base support base frame 6 comes into contact with the vertical surface and stops rotating (see FIG. 3). That is, the transition from the first state to the second state is completed.
In this second state, the first bolt hole 3AA and the second bolt hole 3BB of the first rotation prevention member 3A and the second rotation prevention member 3B, and the first bolt hole 9A and the second bolt of the motor base support frame 6 are provided. The hole 9B is fixed with a bolt.

[Effects of indoor unit 100 of the air-conditioning apparatus according to Embodiment 1]
Since the indoor unit 100 of the air conditioning apparatus according to Embodiment 1 includes the motor base 3 and the motor base support base frame 6, the motor 2 on the motor base 3 can be rotated. For this reason, the attitude | position of the motor 2 can be changed so that the suspension bolt 4 may come to the upper side of the motor 2. FIG. That is, since the operator holds the suspension bolt 4 and attaches or removes the motor 2, the burden on the operator can be suppressed as much as the suspension bolt 4 is on the upper side of the motor 2.

Embodiment 2. FIG.
FIG. 8 is a perspective view of the base frame fixing member 19 of the indoor unit 100 of the air-conditioning apparatus according to Embodiment 2 and the vicinity thereof. The second embodiment will be described with a focus on differences from the first embodiment, and a description of common parts will be omitted. Moreover, the same code | symbol is attached | subjected about the structure which is common in Embodiment 1. FIG.

  In the second embodiment, a base frame fixing member 19 is disposed between the motor base support base frame 6 and the frame 5. The motor base support frame 6 and the frame fixing member 19 are welded, and the motor base support frame 6 and the frame fixing member 19 and the frame 5 are fixed by, for example, bolts 20 or the like. In FIG. 8, only the first motor base support frame 6A and the first frame 5A are shown, but the second motor base support frame 6B and the second frame 5B are similarly shown in FIG. Is provided between them.

In addition, by removing the bolt 20, the configuration of the motor base support frame 6 and the frame fixing member 19 can be slid back and forth on the frame 5, and the position of the motor 2 can be moved.
That is, after the operator changes the posture from the first state to the second state, the turbo fan 1 is detached from the rotating shaft 11 and the motor base support frame 6 and the frame fixing member 19 are slid on the frame 5. Let Thereby, since the suspension bolt 4 can be moved to the front side of the main body 100 </ b> A of the indoor unit 100, the burden on the work of attaching and removing the motor 2 and the rotary shaft 11 to and from the motor base 3 is suppressed. can do.

[Effects of indoor unit 100 of the air-conditioning apparatus according to Embodiment 2]
In addition to the effects of the air conditioner indoor unit 100 according to the first embodiment, the indoor unit 100 of the air conditioner according to the second embodiment includes the motor base support frame 6 and the frame fixing member 19 as a frame. 5 can be slid, so that the motor 2 and the like can be drawn toward the worker side, and the burden of the work for the worker to attach and remove the motor 2 and the rotary shaft 11 to and from the motor base 3 is suppressed. Can do.

Embodiment 3 FIG.
FIG. 9 is a longitudinal sectional view of the indoor unit 100 of the air-conditioning apparatus according to Embodiment 3. The third embodiment will be described with a focus on the differences from the first and second embodiments, and a description of common parts will be omitted. Moreover, the same code | symbol is attached | subjected about the structure which is common in Embodiment 1,2.

In the third embodiment, the frame 5 is arranged on the upper part of the main body 100A of the indoor unit 100. Although the motor base support frame 6 is welded under the frame 5, it goes without saying that it may be connected via the frame fixing member 19 as in the second embodiment. As a result, the motor base support frame 6 and the frame fixing member 19 can be slid on the frame 5, and the burden of work for the operator to attach or remove the motor 2 and the rotating shaft 11 to or from the motor base 3. Can be suppressed.
The motor base 3 is mounted upside down so that the bolt 9 is disposed on the upper part of the main body 100A. At this time, the motor 2 is attached to the motor base 3 so that the rotating shaft 11 is located below the motor 2.

  By removing the bolts connected to the first bolt hole 3AA and the first bolt hole 9A of the motor base 3 and the bolts connected to the second bolt hole 3BB and the second bolt hole 9B, the rotating shaft 3C is used as a fulcrum. The turbo fan 1, the rotating shaft 11, and the motor 2 can be rotated. Accordingly, as shown in FIG. 9B, the suction surface 1A of the turbofan 1 can be directed to the front side of the main body 100A of the indoor unit 100 (second state).

  Here, also in the third embodiment, in the second state, the motor base 3 is held at a predetermined angle so that the turbo fan 1 and the frame 5 do not contact each other. That is, in the motor base support frame 6, the turbo fan 1 and the frame 5 are not in contact with each other when the first plunger 12A and the second plunger 12B are fitted in the first plunger hole 13A2 and the second plunger hole 13B2. Thus, the formation position of the first plunger hole 13A2 and the second plunger hole 13B2 and the formation position of the rotation shaft support hole 8 to which the rotation shaft 11 of the motor base 3 is connected are set. .

[Effects of indoor unit 100 of the air-conditioning apparatus according to Embodiment 3]
The indoor unit 100 of the air conditioner according to Embodiment 3 has the same effect as the effect of the indoor unit 100 of the air conditioner according to Embodiments 1 and 2.

  1 turbo fan, 1A suction surface, 2 motor, 3 motor base, 3A first rotation prevention member, 3AA first bolt hole, 3B second rotation prevention member, 3BB second bolt hole, 3C rotation shaft (motor base rotation shaft) 4 Suspension bolts, 5 frames, 5A first frame, 5B second frame, 5C third frame, 6 motor base support frame, 6A first motor base support frame, 6B second motor base support frame, 8 rotations Shaft support hole, 8A first rotation shaft support hole, 8B second rotation shaft support hole, 9 bolt, 9A first bolt hole, 9B second bolt hole, 10 bolt, 11 rotation shaft, 12A first plunger, 12B second Plunger, 13A1 First plunger hole, 13A2 First plunger hole, 13B1 Second plunger hole, 13B2 Second plunger hole, 14 Positioning pin, 15 Casing, 16 frame, 17 panel, 17A opening, 18 inlet ring, 19 frame fixing member, 20 bolt, 21 heat exchanger, 100 indoor unit, 100A main body, 100B suction port, 100C air outlet, A air blower.

Claims (9)

In the indoor unit of the air conditioner in which the motor is arranged vertically so that the rotation axis of the motor that rotates the fan is in the vertical direction,
A motor base for supporting the motor;
A motor base support frame that rotatably supports the motor base such that the rotation shaft of the motor is inclined at a predetermined angle with respect to a vertical direction;
An air conditioner indoor unit comprising: The motor support frame is
A first motor base support frame provided to face one side of the motor base;
A second motor base support frame provided to face the other side surface of the motor base;
The motor base is
It is sandwiched between the first motor base support base frame and the second motor base support base frame so that the motor base rotation axis of the motor base is parallel to the horizontal direction, and rotates about the motor base rotation axis. The indoor unit of an air conditioner according to claim 1, wherein the indoor unit is freely attached to the motor base support frame. The motor base is
A first plunger formed on the first motor base support frame side of the motor base;
A second plunger formed on the second motor base support frame side of the motor base;
The first motor base support frame is
A first plunger hole formed so that the first plunger is fitted when the motor is rotated by a predetermined angle from a vertically placed state;
The second motor base support frame is
The interior of the air conditioner according to claim 2, further comprising a second plunger hole formed so that the second plunger is fitted when the motor is rotated by the predetermined angle from a vertically placed state. Machine. The motor base is
A first rotation preventing member formed on the first motor base support frame side of the motor base;
A second anti-rotation member formed on the second motor base support frame side of the motor base,
The indoor unit of an air conditioner according to claim 3, wherein the motor is configured not to rotate in the reverse direction when the motor is placed vertically. The motor base is
When the motor is placed vertically,
The first anti-rotation member is fixed to the first motor base support frame, and the second anti-rotation member is fixed to the second motor base support frame and fixed to the motor base support frame. The indoor unit of the air conditioning apparatus according to claim 4, wherein The frame is fixed to the outer wall of the indoor unit, and has a frame that supports the motor base support frame.
The motor support frame is
In a state where the motor is rotated by a preset angle from a vertically placed state, and the first plunger and the second plunger are fitted into the first plunger hole and the second plunger hole,
The position where the first plunger hole and the second plunger hole are formed and the position of the rotating shaft of the motor base are set so that the fan and the frame do not come into contact with each other. The indoor unit of the air conditioning apparatus as described in any one of Claims 3-5. A base frame fixing member that is movably provided on the frame and to which the motor base support base frame is fixed;
A fixing means for passing through the motor base support frame and the frame fixing member and connected to the frame, and fixing the motor base support frame, the frame fixing member and the frame;
The indoor unit of an air conditioner according to claim 6, wherein The motor base and the motor base support frame are:
The indoor unit of an air conditioner according to claim 6 or 7, wherein the indoor unit is attached to an upper side or a lower side with respect to the frame. In the motor base,
The indoor unit of the air conditioning apparatus according to any one of claims 1 to 8, wherein a positioning pin of the motor is formed on an installation surface of the motor.

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